Transportation riders web restrain system

ABSTRACT

A transportation riders protection system has a web ( 22 ) including a head protection device ( 21 ) deployed from a case ( 20 ) by two cable pullers ( 50 ) and ( 90 ) protecting rider ( 80 ) from collision impact. An automatic sensor ( 51   b ), a warning system ( 51   e ) and also a manual switch ( 51   a ) give signal to the firing of the charge from the propellant housing ( 51 ). The piston ( 55 ) propelled down to the limit of effective range will release the cable ( 47 ). The end cap ( 54 ) vents the pressure and cushions the thrust of the piston ( 55 ). The multiple cable control housing ( 53 ) housed set of cable control ( 52 ). Equalizer-organizer case ( 40 ) contains cables ( 41 ) of different length joining cable ( 47 ) with an overload split ring ( 48 ) which will straighten if tension is over the set limit. The anchor-router ( 30 ) locks the web ( 22 ) in place after the cables ( 41 ) are pulled down from the cavities of the tubes ( 60 ) and ( 70 ), while puller ( 90 ) tightens mid section of the web. A windowed section ( 39 ) of a transit vehicle shows the transportation riders web restraint system fully deployed protecting a rider ( 80 ) sitting on a bench chair ( 100 ). The web system can protect and restraint one or more riders.

BACKGROUND

1. Field of Invention

The present invention relates to safety web restraint system for transportation riders during an accident.

2. Description of Prior Art

Seatbelts and air bags are the protection devices for the present day occupants of vehicles. Sadly, in America and all over the world thousands of fatalities still occur every day and many thousand more are seriously injured. While seatbelts do have some protection but are often ineffective at times either when occupants do not put them on for various reasons or they are worn incorrectly or yet the seatbelt system is malfunction. The most common malfunction of the seatbelt system is the shoulder belt, it does not seem to be able to lock up when needed most. Studies show that increased body movement during an accident results in more injuries. Seatbelts are not the solution, then the airbag was invented. One airbag first and then two and then four, there will be more airbags yet to come in the newer vehicles. Airbags help cushion the driver against the steering column during the initial crash and not much more, the human body still has to endure the violent thrust during the collision and that is the major cause of injuries. Airbags help during the initial crash impact but offer no help at all if there is any subsequent collision following. The cost to replace a spent airbag and repair the damages caused by the discharge of the airbag is huge.

Regrettably, seatbelts and airbags though are of some help to the occupants during an accident yet they do not at all installed on the transportation vehicles with the exception of seatbelt on the aeroplane.

In U.S. Pat. No. 6,502,859 B1 (2003) issued to Robert W. Svetlik describe a back 3 net enclosure to protect the occupants of a vehicle during an accident, but nothing illustrated about restraining occupants from thrust against the ceiling, front seat, side doors and back window during an accident collision.

In U.S. Pat. No. 5,226,672 issued to Royce H Husted (1993) is disclosing a web restraining about ⅓ the body of a driver while holding the steering wheel near the bottom, chances are, during an accident, the lower portion of the body will thrust forward and the web might not be able to stop it. Some drivers prefer to put one or both their hands at the top of the steering wheel, then the web will only cover the head and neck and that can be detrimental. The cable pull mechanism does not show a tension release system, in that case the upper arms will be bound by the web so tight that the driver will not be able to continue control of the vehicle and worst yet get hurt by the pressure of the web system.

The present invention deploys a web with a headboard, reinforced at all the edges, knees, head and about mid section at the abdomen protects and restrains the occupant from head to feet during a collision impact. It is made of fire-proof, light weight, easy to pact and strong material which are already available in the market place, it can be stored in a tailor made case or be incorporated with the back rest of a seat The present invention showing a net and a case for easy demonstration. The restraining web can be released by unhooking one or more of the anchoring devices and can be reset again for future use, it is simple, effective, easy to make and low cost to build.

OBJECTS OF THE INVENTION

A principle object of the invention is to provide a restraining safety web for the riders of the transportation system.

Another object of the invention is to provide protection without participation from the riders.

Another object of the invention is to provide restraining during an accident with emphases to the head, neck, spine abdomen and knees area.

Another object of the invention is to provide a warning system that a collision is about to happen or imminent.

Another object of the invention is to provide dual activation mode to activate the restraining web, manual activation, or fail to do so, automatic laser sensor activation system.

Another object of the invention is to provide a restraining protection web to the riders that will not disintegrate during the accident.

Another object of the invention is to provide a safety web system that after deployment the occupants can unhook the web and walk away.

Yet another object of the invention is to provide a protection and restraining system for the transportation riders that is adaptable to all forms of vehicle and is easy and low cost to build.

BRIEF DESCRIPTION OF THE DRAWINGS

These and other objects and advantages of the invention will be apparent upon reading the following description in conjunction with the drawings, in which:

FIG. 1 is a partial cutaway side view of the inside window area of a public transit system bus with the restraining web system fully deployed retraining and protecting a rider sitting on bench seat.

FIG. 2 is a frontal view of the restraining safety web fully deployed and the full length of the head and neck protection device and the vertical length of the square tubes by the window and the round handle bars at the opposite side.

FIG. 3 is the lay Out of all the components of the transportation riders web restraint system.

FIG. 4 is showing the restraining web in a tailor made case complete with cables in the stored position also showing are the components from inside the case when it is all apart.

FIG. 5 is showing the square tubes and the round poles in standing and laid down position showing the cavities that accommodate inside cable or outside cable. Also showing are the flexible mouldings to fit flat surface and to fit round surface and inside and outside cavities of the tubes and poles.

FIG. 6 shows the cable anchor-router front, back and side view, also the spring loaded floating cover opening up to show the sharp pointed one way rasp to stop cable reversal.

FIG. 7 shows the cable organizer-equalizer case in two open halves and the metal cable eyelets and junction split ring.

FIG. 8 is showing the main cable puller in whole and also various parts when taken apart.

FIG. 9 is showing the coil spring cable retriever with the cover open for a better view of the lay out of each components.

FIG. 10 is showing the coil spring cable retriever and its various parts taking apart.

DESCRIPTION OF THE PREFERRED EMBODIMENT

Referring to FIG. 1 a cut away side view of a transportation rider 80 sitting on a bench seat 100 next to a window area 39 of a transit bus. A fully deployed restraining web 22 complete with a head protection device 21 is anchored at the bottom of the tubes 60 and 70 fully protecting the rider 80. Cable puller 50 pulls cable 47 through a cable organizer-equalizer case 40 where cables 41 being organized and joined at an over-load split ring 48, cables pull down from the anchor-routers 30 and locked down fully engaged the restraining safety web 22, a switch 22L at end cap 20 c activates coil-spring cable retriever 90 tightens up mid section of the web 22.

Referring to FIG. 2 is the frontal view of the restraining web 22 and the head and neck protection device 21 fully deployed restraining rider 80 and anchored oat the bottom end of the square tube 70 next to the window and also anchored at the bottom end of the round handle bar.

Referring to FIG. 3 showing all the components linking together. The web case 20 attached with a switch 22L for the coil spring retriever 90. Leading out from case 20 are cables 41 and 41 a to flexible moulding 71 and tubes 70 and 60. A sensor 51 c detects collision imminent situation activates the warning system 51 e and the manual switch 51 d which in turn ignite the charge in the propellant housing 51 b of the cable puller 50 that will propel the piston 52 down to the bottom of the cylinder 53 with cable 47 joined with a split ring 48 together with cables 41 pulled through organizer-equalizer 40 and anti-reverse anchor-routers 30 effectively deployed and anchored the safety web. Cable housing 51 contains cable control system 51 a regulates which cable to be pulled when equipped with multiple cable option. End cap 54 cushions the piston and vents the pressure of the cylinder.

Referring to FIG. 4 showing the restraining web 22 in a case 20 with a springs 20 d hinged lid 20 g, cables 41 and 41 a leading out the outlets of the case of which one of them will activate a switch 22L which in turn activate the coil-spring cable retriever 90 which tightens mid section of the web. A latch system 20 e will dictate the open and close of the lid. The web 22 with head and neck protection device 21 and tap thick ends 20 k and 20 j is reinforced at the stress points, the end of the web 22 is bonded and pressed together at the bottom with two halves 20 a and 20 b of the case 20 which has two end caps 20 c. The safety web is made of fire-proof, light weight, strong and easy to pact material, material such as, but not limit to, strong fire-resistant nylon net is readily available in the market place. The present invention is showing a netting material for easy demonstration only.

Referring to FIG. 5 showing two kinds of tubes 70 and 60 where cables 41 together with flexible mouldings 71 are fitted to their cavities. At the bottom are means for the hooking up of the anchor-router 30. Tubes 70 a and 60 a are at laying down position showing the long inside chamber to fit the cable 41 inside with moulding 71 a or 71 b. Tubes 70 b and 60 b are at laying down position showing the long slit cavity to fit cable 41 at the outside together with moulding 71 c or 71 d. Moulding 71 is viewed at standing position. The present invention facilitate tubes of various kind to tug away cables. Cables can be tug away at any cavities of the vehicle and covered with silicone or adhesive tape. Fabricated curve tubes can be adapted to low profile vehicles that need shorter cable pull.

Referring to FIG. 6 is the front view of the anchor-router 31 and the back view of the anchor-router 30 showing a leaf-spring retaining hook up device 30 a and large mouth for smooth incoming routing of the cables. Lying down anchor-router 32 viewing the side with a cover 33 removed. Two of the four bolts 32 b and two of the four springs 32 d are keeping the cover down with floating and sliding action. Cables 41 pass the interior with room to spare but the tapered-cones 20 j once passed, the cover presses down so is the anti-reversal action with the one way rasp 34 a bites down at the larger cable ends 20 k, and tug from the web and the cover will slide into the slot and lock down the cables solid. Four long rectangular slots 35 a enable the cover to slide into locking position. Anchor-router 34 with the cover 36 flip open to show the one-way rasp 34 a. Two spring plugs 32 a are for installation of the anchor-router 30 onto the bottom of the tubes but permit a person to unplug and then unhook the anchor-router 30 so to release the tension and free oneself. The anchor-router 30 can be made using high value metal to minimize cable burn and ensure good rasp action.

Referring to FIG. 7 is the organizer-equalizer 40 with the cover 45 open, both pieces are of the same feature with ribs 42 and dividers 43 are for keeping the cables 41 in orderly and untangle way. Steel eyelet bar 46 and single steel eyelet 44 are necessary to minimize cable burn. Cables 41 and cable 47 are joined together at the junction split ring 48 which will be straightened if tension is over a set limit to prevent excessive pulling pressure. Materials to make the organizer-equalizer are, but not limit to, light metals or plastic.

Referring to FIG. 8 is showing the main cable puller 50 with the collision sensor 51 c, warning system 51 e and manual switch 51 d together they give commanding order to the propellant housing 51 b to ignite the charge so to propel the piston 52 with a seal 52 c which in turn pulls cable 47 down the cylinder 53 where spring 52 b pressured slinger 52 a releases cable 47. Cable control housing 51 equipped with multiple cable controls 51 e enable multiple pulling mode when cable ends are fitted with hook up rings 47 a. The driver, for instance, need a separate safety web cable control. End cap 54 fitted with vent holes and cushion is affixed together with a spacer 54 a and a dust cover 54 c by two set screws 54 b, the cap can be discharged when pressure build up is too much.

Referring to FIG. 9 is showing the coil spring cable retriever with differentiated inlet main body 90 and its cover 91 open.

Referring to FIG. 10 is showing the chassis 91 of the coil spring cable retriever 90 with snap ring 97, retaining washer 96 and camshaft 94 removed to show the key 99 to wind the coil springs 98 then locked gear 95 with a long bar 92. To begin retrieve cables 41 a, striker 93 b will strike one end of the spring 93 a tensioned anti-reverse cam 93 which will hit the anti-reverse gear 94 e to release tension and unlock the bar 92 at the same time. Cables 41 a when retrieved will be tightened up about mid section of the web 22 near the abdomen area.

CONCLUSION

It can now be seen that the present invention solves many of the problems associated with the prior art. The present invention confines riders within the safety net therefore effectively preventing injuries from hurtling against other objects within the vehicle, and webs made of nettings will be transparent enough to fully comprehend the surrounding situation. The present invention does not need the participation from the riders and protects them from head to feet with emphasis to head, neck, abdomen and knees, and the web can be unhooked and freed oneself. The present invention is simple, easy to build and uses materials already available in the marketplace. The present invention can be easily adapted to other forms of transportation vehicles.

Although the description above contains many specifications, these should not be construed as limiting the scope of the invention but as merely providing support to the illustrations of the preferred embodiment of this invention. For example, tubes used to tug away cables can be of the cavities inside of the vehicle and or fabricated special contoured moulding for low profiled vehicles, and silicone can be used for sealing and appearance instead of flexible moulding and still permit smooth operation of the safety web. To incorporate the back rest of the seat to store the safety web instead of a tailor made case is another way and alternately hang up to the ceiling of low profiled vehicle. One way expansion cam is another way to lock up the safety web, etc.

Thus the scope of this invention should not be determined by the appended claims and their legal equivalents, rather than by the examples given herein. 

1. A transportation riders web restraint system function as protection for riders subject to force of impact during collision accident comprising: A web stored in a case and may also be incorporated with the back rest of a seat deployed across and restraint the occupant from force of impact during collision accident; means, for warning an accident about to happy, switching means and sensing means to activate cable pullers in turn deployed the safety web. Storage means for the cables and anchoring means to secure the web in its proper place.
 2. The system of claim 1 wherein including means to store said web such means including the incorporation of the back rest of a seat
 3. The system of claim 1 wherein said web can be made of any sheet material that is strong light weight, fire-proof, can be easily packed into small package such as but not limit to parachute fabric and fine nylon netting that has strong portions to prevent tearing and against localized strong thrust force.
 4. The system of claim 1 wherein said web has means to protect said head and neck of said occupant from violent motion during an accident.
 5. The system of claim 1 wherein said web including tapered cable ends for better anchoring means and anti-reverse means.
 6. The system of claim 1 wherein including a sign and sound warning means and an automatic sensor means to detect collision circumstance and give signal means as the best time to deploy the said web automatically and or manually.
 7. The system of claim 1 wherein including propellant powered puller means said puller has multiple cable control means.
 8. The system of claim 7 wherein including tubular length for piston projection and housing for signal receiving means and propellant ignition means.
 9. The system of claim 7 wherein further including cable release means, means to release pressure and piston cushioning means and ventilation means.
 10. The system of claim 1 wherein including said cable routing and anchoring means locking said web in fullv deployed position.
 11. The system of claim 10 wherein including said cable routing and anchoring means has two concaved halves sharp rasp means to prevent reversal of said cable and one half is floating and is a spring compressed cover has strong locking means to said cable.
 12. The system of claim 10 wherein said cable routing and anchoring means further including a spring hook up and press to release means.
 13. The system of claim 1 wherein including cable organizer-equalizer has two halves made of light weight material such as but not limit to plastic and light metal has ribbed beds and dividers and metal eyelets.
 14. The system of claim 1 wherein including said tubes for installation of said cables and said flexible mouldings and said tube has hook up means for said cable anchor-router.
 15. The system of claim 1 wherein further including said flexible mouldings to install on round surface means inside said tube with said cable and including said flexible mouldings to install on flat surface means outside said tube with said cable.
 16. The system of claim 1 wherein further including said coil spring puller means.
 17. The system of claim 16 said coil spring puller including multiple coil spring means,
 18. The system of claim 16 said coil spring puller further including multiple coil cable retriever means with differentiated outlets means.
 19. The system of claim 16 wherein further including bar locking means and anti-reverse means.
 20. The system of claim 16 wherein further including electrically switch means and punch means to activate said puller. 